CK
The CK1-Z series clamp cylinder actuators are compact, lightweight, non-lube actuators engineered for precise clamping in industrial automation. Featuring two clevis width options (16.5mm and 19.5mm), these cylinders deliver reliable performance in space-constrained applications across manufacturing, assembly, and fixture-based operations.
Available in three bore sizes with stroke lengths up to 150mm, the CK1-Z series provides versatile clamping solutions for diverse workpiece requirements. The integrated speed controller eliminates external components, simplifying installation while ensuring consistent, repeatable clamping speeds. Easy speed adjustments enable fine-tuning without tools, optimizing cycle times for high-throughput production.
Constructed with durable, corrosion-resistant materials, these cylinders withstand demanding environments while maintaining long service life under frequent cycling. The non-lube design reduces maintenance requirements and prevents contamination from lubricants, making them ideal for clean manufacturing environments. Low-friction seals ensure smooth operation and extended durability.
Auto switch capability facilitates seamless integration with PLC systems, providing real-time position feedback for automated sequences and safety interlocks. Optional rod attachments enhance versatility for specialized clamping tasks. Pneumatic-powered with efficient operation at standard pressures (0.1 to 1.0 MPa), the CK1-Z series supports flexible mounting configurations including clevis and flange styles.
With 2289 configurations available, the CK1-Z series caters to custom requirements from compact precision clamping to extended-reach applications. Its innovative built-in speed control and lightweight construction (starting under 1kg) make it perfect for robotic end-effectors and automated fixtures. The CK1-Z excels in applications demanding reliable, maintenance-free clamping with micron-level repeatability, ensuring operational precision and product integrity in advanced manufacturing environments.
